At a particular temperature, Kp = 0.390 for the reaction N₂O4(9) 2NO₂(9) A flask containing only NO2(g) at an initial pressure of 6.00 atm is allowed to reach equilibrium. Calculate the total pressure in this flask at equilibrium. 3.494 atm You are correct. Your receipt no. is 153-8518? Previous Tries With no change in the amount of material in the flask, the volume of the container in question is increased to 4.000 times the original. Assuming constant temperature, calculate the (new) total pressure, at equilibrium. 8.7e-1 atm Submit Answer Incorrect. Tries 7/99 Previous Tries

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At a particular temperature, Kp = 0.390 for the reaction
N₂04(9) 2NO₂(g)
A flask containing only NO2(g) at an initial pressure of 6.00 atm is allowed to reach equilibrium. Calculate the total pressure in this flask at equilibrium.
3.494 atm
You are correct.
Your receipt no. is 153-8518 Ⓒ
With no change in the amount of material in the flask, the volume of the container in question is increased to 4.000 times the original. Assuming constant temperature, calculate the (new) total pressure, at equilibrium.
8.7e-1 atm
Previous Tries
Submit Answer
Incorrect. Tries 7/99 Previous Tries
Transcribed Image Text:At a particular temperature, Kp = 0.390 for the reaction N₂04(9) 2NO₂(g) A flask containing only NO2(g) at an initial pressure of 6.00 atm is allowed to reach equilibrium. Calculate the total pressure in this flask at equilibrium. 3.494 atm You are correct. Your receipt no. is 153-8518 Ⓒ With no change in the amount of material in the flask, the volume of the container in question is increased to 4.000 times the original. Assuming constant temperature, calculate the (new) total pressure, at equilibrium. 8.7e-1 atm Previous Tries Submit Answer Incorrect. Tries 7/99 Previous Tries
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